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RedBear-OS/netstack/src/icmp_error.rs
T
Red Bear OS bd595851e2 base: apply Red Bear patches on latest upstream/main
251 files: init, acpid, ipcd, netcfg, ihdgd, virtio-gpud, scheme-utils,
inputd, block driver, ptyd, ramfs, randd, initfs bootstrap, path deps,
version +rb0.3.1, author attribution
2026-07-11 11:39:24 +03:00

187 lines
6.7 KiB
Rust

//! ICMP error message generation — mirrors Linux 7.1's `icmp_send`.
//!
//! Reference files:
//! - `net/ipv4/icmp.c:802` — `__icmp_send()` — builds ICMPv4 error messages
//! - `net/ipv6/icmp.c:icmpv6_send()` — ICMPv6 error messages
//! - `include/uapi/linux/icmp.h` — ICMP type/code constants
//!
//! ICMP error messages contain: ICMP header + original IP header + 8 bytes
//! of original transport payload (RFC 792 §3.1, RFC 4443 §2.4).
use smoltcp::wire::{
Icmpv4Packet, Icmpv4Repr, Icmpv6Packet, Icmpv6Repr, IpAddress, Ipv4Address, Ipv4Packet,
Ipv4Repr, Ipv6Address, Ipv6Packet, Ipv6Repr,
};
/// Builds an ICMPv4 Destination Unreachable error message (Type 3).
/// Code 3 = Port Unreachable (mirrors `ICMP_PORT_UNREACH` in icmp.c).
pub fn build_icmpv4_port_unreachable(
original_packet: &[u8],
) -> Option<Vec<u8>> {
let ipv4 = Ipv4Packet::new_checked(original_packet).ok()?;
let src = ipv4.src_addr();
let dst = ipv4.dst_addr();
let ip_header_len = ipv4.header_len() as usize;
let total_len = original_packet.len().min(ip_header_len + 8);
let mut payload = alloc::vec![0u8; 4 + total_len];
payload[0] = 0;
payload[1] = 0;
payload[2] = 0;
payload[3] = 0;
payload[4..4 + total_len].copy_from_slice(&original_packet[..total_len]);
let icmp_repr = Icmpv4Repr::DstUnreachable {
reason: smoltcp::wire::Icmpv4DstUnreachable::PortUnreachable,
header: Ipv4Repr {
src_addr: dst,
dst_addr: src,
next_header: smoltcp::wire::IpProtocol::Icmp,
hop_limit: 64,
payload_len: 4 + total_len,
},
data: &payload,
};
let mut buf = alloc::vec![0u8; icmp_repr.buffer_len()];
let mut pkt = Icmpv4Packet::new_unchecked(&mut buf);
icmp_repr.emit(&mut pkt, &smoltcp::phy::ChecksumCapabilities::ignored());
Some(buf)
}
/// Builds an ICMPv4 Time Exceeded error message (Type 11, Code 0).
/// Mirrors `ICMP_TIME_EXCEEDED` / `ICMP_EXC_TTL` in `icmp.c:1168`.
pub fn build_icmpv4_time_exceeded(
original_packet: &[u8],
) -> Option<Vec<u8>> {
let ipv4 = Ipv4Packet::new_checked(original_packet).ok()?;
let src = ipv4.src_addr();
let dst = ipv4.dst_addr();
let ip_header_len = ipv4.header_len() as usize;
let total_len = original_packet.len().min(ip_header_len + 8);
let mut payload = alloc::vec![0u8; 4 + total_len];
payload[4..4 + total_len].copy_from_slice(&original_packet[..total_len]);
let icmp_repr = Icmpv4Repr::TimeExceeded {
reason: smoltcp::wire::Icmpv4TimeExceeded::TtlExpired,
header: Ipv4Repr {
src_addr: dst,
dst_addr: src,
next_header: smoltcp::wire::IpProtocol::Icmp,
hop_limit: 64,
payload_len: 4 + total_len,
},
data: &payload,
};
let mut buf = alloc::vec![0u8; icmp_repr.buffer_len()];
let mut pkt = Icmpv4Packet::new_unchecked(&mut buf);
icmp_repr.emit(&mut pkt, &smoltcp::phy::ChecksumCapabilities::ignored());
Some(buf)
}
/// Builds an ICMPv6 Destination Unreachable error (Type 1, Code 4).
pub fn build_icmpv6_port_unreachable(
original_packet: &[u8],
) -> Option<Vec<u8>> {
let ipv6 = Ipv6Packet::new_checked(original_packet).ok()?;
let src = ipv6.src_addr();
let _dst = ipv6.dst_addr();
let total_len = original_packet.len().min(48);
let mut data = alloc::vec![0u8; 4 + total_len];
data[4..4 + total_len].copy_from_slice(&original_packet[..total_len]);
let icmp_repr = Icmpv6Repr::DstUnreachable {
reason: smoltcp::wire::Icmpv6DstUnreachable::PortUnreachable,
header: Ipv6Repr {
src_addr: _dst,
dst_addr: src,
next_header: smoltcp::wire::IpProtocol::Icmpv6,
hop_limit: 64,
payload_len: 4 + total_len,
},
data: &data,
};
let mut buf = alloc::vec![0u8; icmp_repr.buffer_len()];
let mut pkt = Icmpv6Packet::new_unchecked(&mut buf);
icmp_repr.emit(&_dst, &src, &mut pkt, &smoltcp::phy::ChecksumCapabilities::ignored());
Some(buf)
}
extern crate alloc;
#[cfg(test)]
mod tests {
use super::*;
fn make_standard_packet(src: [u8; 4], dst: [u8; 4]) -> Vec<u8> {
// 20-byte standard IPv4 header + 8-byte UDP header.
let mut p = vec![0u8; 28];
p[0] = 0x45; // version 4, IHL 5
p[2] = 0; p[3] = 28;
p[8] = 64;
p[9] = 17; // UDP
p[10] = 0;
p[11] = 0;
p[12..16].copy_from_slice(&src);
p[16..20].copy_from_slice(&dst);
p
}
#[test]
fn icmpv4_short_packet_returns_none() {
let p = vec![0u8; 10];
assert!(build_icmpv4_port_unreachable(&p).is_none());
}
#[test]
fn icmpv4_preserves_destination_address() {
// Regression: the previous code computed IHL as
// (ipv4.version() & 0x0f) * 4 = 4*4 = 16 (WRONG).
// smoltcp's version() returns 4 (the version number), not the
// combined version/IHL byte. The correct IHL for a standard
// 20-byte header is 5. With the bug, the ICMP error would
// include only 16+8=24 bytes of original, truncating the
// destination IP. With the fix, all 20+8=28 bytes included.
let original = make_standard_packet([10, 0, 0, 1], [192, 168, 1, 1]);
let icmp = build_icmpv4_port_unreachable(&original).expect("should build");
// ICMP DstUnreachable layout:
// bytes 0-3: type(1) + code(1) + checksum(2)
// bytes 4-7: unused(4)
// bytes 8-31: ICMP-wrapped IP header (src=orig_dst, dst=orig_src)
// bytes 32+: original IP packet (and L4 data)
// The original IP's dst IP first byte is at offset 32+16=48.
assert_eq!(icmp[48], 192, "dst[0] must be 192, was {}", icmp[48]);
assert_eq!(icmp[49], 168);
assert_eq!(icmp[50], 1);
assert_eq!(icmp[51], 1);
}
#[test]
fn icmpv4_with_ip_options_includes_extended_header() {
// IHL=6 means 24-byte header (20 + 4 bytes options).
// The bug would compute IHL=4 (16 bytes) and truncate.
let mut p = vec![0u8; 32];
p[0] = 0x46; // version 4, IHL 6
p[2] = 0; p[3] = 32;
p[8] = 64;
p[9] = 17;
p[10] = 0;
p[11] = 0;
p[12] = 10; p[13] = 0; p[14] = 0; p[15] = 1; // src
p[16] = 192; p[17] = 168; p[18] = 1; p[19] = 1; // dst
let icmp = build_icmpv4_port_unreachable(&p).expect("should build");
// Source IP of the original packet is at offset 32+12=44.
// (See comment above for the full ICMP layout.)
assert_eq!(icmp[44], 10, "src[0] must be 10 with IHL=6");
assert_eq!(icmp[45], 0);
assert_eq!(icmp[46], 0);
assert_eq!(icmp[47], 1);
}
}